Warper clock



Feb. 18, 193Q. Q A, PETERSON ,747,734

WARPER CLOCK Filed Oct. 18,. 1925 4 Sheets-Sheet l- @Mimk Feb. 18, 1930. B, A, PETERSON l,742',734

WARPER CLOCK l Filed Oct. 18, 1925 4 Sheets-Sheet 2 Feb.4 18, 1930. B. A. PETERSON 1,747,734

WARPER CLOCK Filed oct. 18, 1925 4 sheets-sheet 5 Feb., 18, 1930. B VA PETERSON .41,747,734

WARPER CLOCK Filed Oct. 18, 1923 4 Sheets-Sheet 4 2221/632 fol;

J5). /Pam' 5071/6 @3 @A Mw Parent-ea ees. 1e, 193e Llei/.Rie

4Bn'a'r A. PETERSON, oie RooKFoRnrLLrnors, ASSIGNOR TO BARBERLCOLMAN COM- PANY,l OF`RQCKFORD,.1LLINOIS, .A CORPORATION OF ILLINOIS wanrnaenoox Application filed October 1S, i923. Serial No. 669,205.

The beam ot a loom is iilledwith yarn at the Slasher, yarn from six or eight warper I beams being simultaneously wound upon the loom beam.= In order to avoid waste it is de- 5 sirable that all the warper beams in the Slasher shall unwind r run out at the same time. To attain this result each warper is provided with a. clock ormeasuring' device adapted to canse stoppage of the warper l0 When a predetermined lengt-h of 'yarn has been Wound upon the wai-per beam. VClocks of the prior art havebeen so constructed that it was easily possible to make an Yerror in set-ting the'cloclr. l rlvhe object of this invention is to provide means to'prevent errors insetting the clock, to provide improved means to prevent mischievous'or accidental displacement of the iiidicator, and to provide improved means to vstop the Warper to permitthe insertion ot a I lease when any predetermined length ot yarnY has been woundl upon the warper beam'.

n the accompanying drawings, Figure l is anelevation, with certain parts in section, illustrating a wai-per clock embodying the features of my invention. Fig. 2 is a view taken in the-plane of 4line 2-2 of Fig. l. Fig. 3 is asectionon line 3 3 of Fig. l, the indicator being showiin operative position. Fig. Il is a view similar to Fig. 3 but showing' ltheindicatorslid back to starting position and ready to lie-'dropped down into engagement with the driving worm. Fig. I5 isa perspective view showing the parts in the posispective view showing the indicator dropped down into engagement with the driving worm. Fig. .7 is a perspective viewshowing the position of the indicator when acting to stop the warper. Fig. 8 is a perspective yiew showing the indicator being returned to starting position.` Fig. 9 represents -the indicator as being' slowly advanced during the operation of lling the beam. Fig. 10 is asectional view showing the parts in the position represented in Fig. 7. Fig. ll is a section on the line 1l-ll of Fig. 2. Fig. i2 is a ragmentai view taken from the right-hand end oit Fig. l. Fig. 13 is a tragmentalend elevation of a beam Warper showing the gram; Fig. 21 is a tion represented in Fig. 4. 6 is a per.-

warper clock applied thereto. Fig. 14 illus trates the. opposite side of the warperclock and shows the manner in vwhichthe clock is driveny from the main driveshaft of the wai-per. Fig. l5 is a ragmental 'sectional view ofv the drive Iforthe warper clock.A Fig. p16-is a sectional detail of a-n adjustable stop block comprising the warperclock. Fig. l? is a view taken in the plane of lineV 17517 of 1S is a view taken intheplane 16. Fig. 1S) is a fragniental side view of the slide and its driving screw. Figs.`20 to-Qel inclusive, illustrate a warper. clock hav-ing means for stopping. the

Awai-per at predetern'iined .intervals for the insertion of a lease.' Fig. QOis an electrical dia v fragmental front view with certain parts shown :in'section in the plane ot line 21%21 of Fig. Q2; Fig. 22 a trag-v mental end view ;"Figj a section on line 23-23 of Fig. 22, and Fig. Qi'a'section on line 2%-24 of Fig. 2l. 3 AVv'hile warpcr clocks embodying the present invention are adaptedl for with beam warpers and ball warpers of various types t' i plied to a BarbereColman'high-speed beam warper.- Gnetorm of said warper is shown in my Patent No. l,572,t70,dated June 5, 1928.*

The Clock.comprises'mea'ns for closing an electric circuit when a predetermined amount and makes. I have herein lshown it as ap- -ot yarn has been wound nponthc warper beam. said'circuit.including means tor stopping the warpcr. The circuit is closed by means of a Contact which is slowly advanced toward the'closed-circuit position b vineans ot a screw which is positively drivenby the warper.

Referring now to Fig. 13, A is the beam upon which the yarn B is being wound. The yarn mass wound upon the beam A. rests upon a friction drum C which is geared to the main shaftD of the warper. n the constructionherein shown the clock is driven from the sha t D by means of a worm l on said shaft meshing with a spiral gear 2 on a shaft 3. To the upper end of the shatt is lived a worm et (Figf) which meshes with a spiral gear 5 mounted in the clock casing. Rigid with the gear 5. is a spur gear wheel 6 meshing with a change gear 7 Supported by -a bracket 8. The Y bracket 8 is' pivotally mounted upon the axis of the 4before-inentioned screw and 1s secured 5 infadjusted position by means of a screw 9.

The change gear 7 meshes with va change gear lO'which is removably secured to a sleeve 11 Fig. 1) by lmeans of a pin 12 and a nut 13'.

vhe sleeve. 11 is rotatably and slldably mounted inan opening 1 4'ina"cover plate 15 secured to the end, of theclock casing. Thescrew 1 6-.hereinbefore/ referred to. 1s -journalled iii-.bearings 17 in the Aclock casing, sai-d .screwbeing rigid with a shaft'-18 on v which the change gearbracket 8. is pivoted,

said shaft'also'extending'through the sleeve A 11. ,The sleevelll is 'slidably but non-rotatablyconnected 'to the shaft-,11.8 by means of a spline 19. The bore ofthe sleeve isenlarged to receive a coiled expansive spring,

20 20 which surroundsthe shaft 18 and bea-rsat its outer end: against a disk 21 which 1s vsecured to the endof said shaft by means of a screw22. The inner'end--of the spring 2,0

25 bears against an annular shoulder 2 3 With'- in thesleeve 11 and to hold-the sleeve against an annular shoulder 24 on" saidv shaft, the change' gear-"10 being then in mesh with the change'gear x l. The outer end of the sleeve 11 is knurledand carries a graduated flange 25 (Fig. 12) adapted to cooperate with a datum mark'26 on the cover plate 15.

A guide rod 27 (Fi 3) extends parallel.

i end of thc sl'1de'29making contaft With the bar 44 (as shown inxFig. 10), thefby closing with the screw 16 wit nv the clock casing. `On this guide rod' is slidably mounted the hub 28- of a slide 29. To the slide 2 9 iS' 4secured a tooth or plate 30 adapted to engage- Athe thread of the screw 16. The screw is o revolved in the directionto move the slide 429 toward the gear end of the clock. v-'l`he means for determining the starting point of fthe slide 29 comprises a graduated bar 31 se- .'cured 'Withinfthe clock casing and extend- .to'ill a new beam, and that the indicator 1s in the position illustrated in Figs. 7 and 10,'

5' ing parallel with the screw 1 6and the guide fred 27.A` On "the graduated bar 31 .1sv slidvably mounted-,a stop block 32, said block l being arranged to' be locked in ,position upon fthe graduated bar 3l-by means of a springo" pressed plunger 33 (Figs. 16 and 18) arv :ranged to engage lockingnotches 34 1n the j. flower edge f. 5 the :graduated bar. The y. r'plunger-33"is'provided.vv1th a knurled lower "fend constituting the Ahandle for operating 552th@ plunger and for sliding theblock along the graduated' bar. To the slide 29 1s vs e cured an indicator finger 35 arranged to adap'te` d :to determine the starting position of the slide 29L by Contact with one end of the 'stop' block 32. I

Alllponreference to Fig. 7 it Will'be noted- 4that 'thereis a longitudinal-groove 36 in the rearfsi'd'e-of the graduated bar 31. 1The groove 36 communicates at one end with a thus serves normally transverse groove` .37. The groove extends to the upper edge of the bar. Inthe rear side of the stop block 32 isa groove 38 that extends parallel with the groove 36 and communicates at one end with a transverse groove 39 in the stop block. Onel pressed projection or plunger 41,` the outer' endof Whlch is adapted to move through the transverse" groovef 37' andV along the upper edge of the bar'3'1and the inclined guideway 40, down through'the transverse groove 39,

and through grooves 38 and 36. .The plunger '-41 carrier ascrew 42 -(Fig. 10) that extends an elongated opening 43 in the slide ,through 29. fv A'n electric Contact bar 44 (Fig. is

mounted within the clock casing-'and insulated therefrom,.sai'd -contact bar' extending p'arallelwithl thescrew 16. This bar is connectedA into .ja-r normally energized circuit which forms part of thevv means for stopping the warper.;

The screw 1 6 is eut away (ne. r the. driving end thereof to form'anotch 45 (Figs. 1 and When the4 indicator 35 reaches'the zero mark on the graduated bar 31, the-tooth 30 .en 'the' slide 29 dropsinto .the notch 45, the Vplunger 41 descending into the transverse groove 37 (as shown in Fig. 7), and the lower a circuit to groundfand'causing the Warper to b'e automatically stopped.

v On the `lovver end 'of the slide 29 is a conl tactA spring 4 6 adapted to engage the contact bar 44 inv certain positions of the slide 29.

Said slide' is provided with a handle por,-

tion 47.

Assuming that'the warper is in readiness th'ev operation` is as follows: T he' operator lifts the slide 29 until the projection 41 is above the upper edge ofthe graduated bar 31, and

then' slides the 4indicator rtotheleit until the i 'indicator finger 35 stops against the end of groove 39, the indicator finger35 being at that time in contact with the stop block 32- overl'ie ,the-graduated side of the bar 31 and (see Fig. 5). The operatorfthen drops the slide 29, the tooth-3O entering the thread of the screw 16,.as shovvnin Figf, andthe pro- .jection- 41 beingthen 'inline vwith the. groove bar 31 and while said cannot be improperly through its gear connection wi-th the friction drum C.

- After'the projection 41 has entered the groove 38 or the groove 36, the slide 29 cannot be lifted to withdraw the tooth 30 from the screw 16, as the projection`4l travels close to the upper'wall-of said groove, and hence after the indicator has commenced to travel toward the right it cannot be accidentally or maliciously pushed one way or the other by taking hold of the slide 29. if at any time it should be necessary manually to change the position of the indicator, the operator may do so by a special maneuver, that is to say, by inserting the linger into the space above the graduated'ba'r 31 and pushing back the screw`42 to retract the plunger 41 from the groove 36 or thegroove 38, and then'lifting the slide clear of the screw.

y After the tooth 30 has dropped into the notch 45 of the screw, the slide 29 cannot be re-engaged with the screw without first returning the indicator finger 35 into contact with the stop block 32, or maneuver above described.

After the slide29 has been-raised to place b the plunger 41 on the .upper edge of the bar 31, the Warper cannotbe restarted until the indicator '35 has been returned into engagement with the 'stop block 32, inasmuch as the ground-contact finger 46 vengages` the `contact bar 44 while the plunger 4l` rests upon the plunger` is in engagement with the inclined guide surface 40. Not until the indicator i'nger35 engages the stop block and the tooth engages the screw 16 can the warper be restarted, except vby the special operation hereinbefore mentioned.

It will be seen that the indicator cannot be accidentally or maliciously displaced while the warper is running, and that the indicator reset through carelessness or inadvertence. The warper beam farthest back in the slasher creel is provided with a brake. The yarn unwound from said beam being under greater tension than the yarn from the other beams, will stretch somewhat; consequently if the same amount of yarn were wound on all the warp'er beams a hundred yards or so of would remain on the beam farthest the others were completely unwound. In order that a special beammay be wound with less yarn thereon thanxthe other beams,the clock is providedV with .the means hereinbeforeY described for adjusting the relation of the screw 16 to the drive. By first drawing` out the sleeve 11 untilthe gear 10 is out of mesh with the gear 7, the

yarn

Vance the indicator a distance equivalent to the desired difference in length of yarn on the beams.

Owing to somea'ccidental occurrence, vit is occasionally necessary to remove a partly going through the back when4 lsleeve 11 and the b screw 16 may be turned sutiiciently to adk b adjustment .same length of yarn. The provision herein made for the use of change gears permits-of adjusting the clocks of all the warpers so as to obtain vthe desired uniformity in the size of the beams.

Figs. 21 4to 24 whereby the clock use on ball warpers, the clock being arranged to stop the warper whenever a predetermined length of yarn (say, one thousand yards) has been wound on the beam, in order to permitof inserting a lease.

Pinion teeth 50 formed in the sleeve l1 mesh with a spur gear wheel 51 rotatably mounted on the inner side of the cover plate 15a. On the side of the gear 5l is a pin 52 adapted to bridge the space between two spring contact fingers 53 and 54, the finger 53 eing electrically connected to the live bar 44, and the finger 54 being connected to a illustrate a modification lamp 55 included in the circuit.

As shown in Fig. 24, the portion of the pin 52 which makes contact with the lingers 53 and 54 is reduced to an edge; and said edge engages the ends of said ngers. Thus relatively slight movement of the wheel 51 is suiiic-ient to disengage the pin 52 from the contact fingers.

In every revolution of the grounded gear wheel 5l, the pin 52'closes a circuit toground,` thus throwing out the high-speed drive and stopping the warper, and also Closes a circuit through the lamp 55. The light indicates to the operator that the warper has stopped for the insertion of a lease, and not because of thread breakage. By the time the operator has inserted thelease and is readjv to re start the warper athigh speed, the rotation of the warp beam through the-action of the low-speed drive has carried the edge of the pin 52 away from the ends of thecontact springs 53 and 54, thus enabling the operator to throw the high-speed drive into operation.

As will be apparent to thoseskillcd in the art, various consti-notional' changes 'may be made without departing from the spirit and scope of the invention dened in Athe appended claims.

claim as my invention:

1. A warper clock having, in combination, a screw, an indicator movable alongthe screw y the rotation of the latter, a graduated ar extending parallel with the screw, the indicator being arranged to travel along said bar, a stop block mounted on said bar for longitudinally thereof, said screw having a cut-away portion at one end,` said bar having a longitudinal groove thereis especially adapted for l GCI I in and a transverse groove. communicating with the longitudinal groove, said stop i cating with the bar, a projection on [transverse groove in `screw by block mounted for adjustment longitudinally transverse groove communiblock hav-ng a longitudinal groove 'in said to travel in said longitudinal groove 'and' be conined by the walls vthereof so as to prevent Y disengagementv of.A

the indicator from the screw, said projection dropping into the transverse groovein said bar when the 'in'- dicator reaches the cut-away portionof said screw, said projection being arranged to slide along one edgeof said bar and enter the bar extendingalong said screw, said indica# tor being arranged to engage'said contact bar when the :indicator reaches-the cut-away portion ofjsai'dscrew,

and a.V contact on' said indicator 'arranged to y engage .v said contact bar While` said projection is on the edge of the graduated bar.

l2. A -warper having, in combination, 'a

" communicating with the longitudinal groove,l

said stopblock having a transverse groove communicating with the longitudinal groove in said part, 'a projection on theycontact adapted to travel. in said longitudinal groove and bel confined by the walls thereof so as to prevent disengagement ofthe contact'from thel screw, said projection dropping into the transverse groove in said `bar while said bythe .part when the in? dicator reaches the cut-away portion of said screw, said projection being arranged to slide along one'edge of the transverse groove in the; stop block, acontact bar extending along the screw,

men ioned saidcontact barl when the rst'mentione d contact reaches the cut-away portionof the screw, and a contact connectedto the first contact'and arranged to engage said contact projection is on thel edge of saidpart. A 1

3. A warp'er'clock having-,in combination, a screw,.an indicator movable along the screw rotation of the latter, a graduated bar extending parallel with the sci'ew,`the in'-v dicator beingiarranged to travel along said bar, a ,stop v'bloclrfmounted on said bar ,for adjustment'lon'gitudinally thereof, said screw and atransverse groove communicating with' the longitudinal groove, said stop block having'a-'transverse groove communicating with a longitudinal groove which registers with thelongitudinal groove in said-bar, said stop block having an inclined-guide portion com municating with the transverse groove in said .adap 'and be confined. by the walls thereof so as the indicator adapted the stop block,'a contact therein and a transverse groove the'cut-away portion-,of said screw,

said part and enter the first contact being arranged tof engage.

stop block, a projection on the indicator ted to travel in said longitudinal grooves to prevent disengagement of theindicator from the screw, said projection dropping into the transverse groove in said bar when the indicator reaches the cut-away portion of said screw, said projection being arranged to slide along one edge'of said bar and be.

guided by said'inclined lportionV into the transverse groove inthe stop'block.v

4. A warper clock having,in combination,

a screw, an indicator movable along thescrew by therotation of the latter, a graduated bar extending parallel 'with the screw, the indicator being arranged to travel along said bar, a stop justment longitudinally thereof, said screw having a cutaway portion at one'end, said bar'having a longitudinal groove 'therein and a transverse groove communicatingwith the longitudinal-groove, said stop block having atransverse groove communicating with .fthe longitudinal groove in said bar, a projecf tion on the indicator adapted to travel in' said longitudinal groove and be confined by the walls thereof so as to prevent disengage ment of the indicator ,romfthe' screw, said" projection' dropping into' the transverse groove in Said bar when the indicator reaches said projection being airangedrtoi slidex along o ne edge'of saidbarfijand enterj the transversel groovein the stop ,blocln :'21

5. A warper clock having, in combination, a screw, 'an indicator movablealong the screw bythe-,rotation of the latter, a graduated bar extending parallel with the screw, the indibl'ock mounted on said bar for ad catorbeing arranged to travel along said bar, 'a stopblock mounted on said bar for adjustment longitudinallyf thereof, said barhaving a'longitudin'al groove therein and av transverse groove communicating with the longitudinal groove, said 4'stop block. having a transverse groove communicating witl'ithe longitudinal groove in said bar, 'a-'proj ectio'n on the indicatorad'apt'edto travel .in said longitudinal groove andl be conlined'fby the walls thereofso as to prevent disengagement of the indicator'from the screw,'saidf.pro

'bar when the indicator reaches thelv end of said screw, saidprojectionv being arranged the transversegroove in the stop block.

'1115 jection being manually withdrawable from '1 to slide along one edge of said bar and entera, having a cut-away portion at one end, said... bar having a longitudinal groove therein` "6.- A warper clock haying, 'in combination,

ascrew, an'indicator arranged to'be moved along the screw by the rotation .of the latter, and a part having agroove therein extending parallel with the screw, said'indicatorhaving apart lying',i ns`aidgroove whenl tli'efindicator is in engagement'withthe screw, the

wall of'V said groove preventing disengagel the indicator drops out lOf contact isin engagement with `the screw,they

moved along the screw by .the rotation of thef latter,`and a part having a groove therein eX- ltending parallel with the screw,said contact havinga part lying in said groove when the wall lot said groove preventing disengagement ofthe contact from the screw.

8. A war-per clock having, in combination, an electrlc contact, means to cause'the contact to move synchronously-with the warper, Ia

Astop to determine the initial position' of the contact, said contact being. arranged for. `disengagement from the contact-,moving means,

and means normally acting to prevent fthe warper 1from being Ystartedbefore the'contact has been placed in engagement with said stop along the screw bv and in engagement with said contact-moving means.

a screw, an indicator arranged-to bemoved the rotation ofthe latter, a graduatedpart over which -theiiudicator is arranged to travel, a stop fornthe indicator, said stop Abeing adjustable'along said graduated part,`said indicatorbeing arranged for disengagement fromj the screw, and means normally acting to prevent the warper from lbeing started before the indicatorl has been placed in engagement with said stop and engagement withthe screw.

10. A warper clock having, in combination,

an indicator, means to cause the indicator-to move synchronously with the warper, a gradua'ted part over which the indicator is arranged to move, a stop for the indicator, said stop being adjustable along -sai'd graduated part, said indicator being arranged for disengagement from the indicator-moving means, and means normally acting to prevent the warper from being started before. the indicator has been placed in engagement with said stop and in engagement with said indicator-moving means.

11. A warper clock having, in combination,

a screw, an indicator arranged to be moved along the screw by the rotation ofthe latter, a graduated part over which the indicator is arranged to travel, said indicator being arranged for disengagement from the screw, and means normally acting to prevent the warper from being' started before the indicator has been placed in engagement with the screw, said preventing means being automatically disabled when the indicator is placed-in engagement with the screw.

12. A'warper clock having, in combination, an indicator, means to cause the indicator to move synchronously with the warper, a graduated part over which the indicator is arsaidv preventing means v'moved along the Y y A `1 normally 9.' A warper clock having, infcombination, '-b

ranged to move, said indicator being ar- .before the indicator has beenA placed in engagement with said indicator-moving means, being automatically disabled When the indicator is placed in engagement with the indicator-moving means.

13. A warperclock having, in combination, a screw, an electric contact arranged to b e screw by the rotation of the latter, a stop to determine the initial position of said contact, and means normally acting to prevent the contact from being manually shifted along the screw after the contact has commenced to travel away from the stop and before the Contact reaches the end of its travel.l 14.' A warper'clock having, in combination,

' an electric contact arranged to move synchrothe warper, a stop to determine the initial position of said contact, and means acting to prevent the contact from eing ma ually shifted after the contact has commenced to travel away from the stop and before the contact reaches the end of its travel. f

15. Am'arper clock having, in combination', an electric contact,imean's to cause the contact to travel synchronously with the warper, said contact vbeingarranged for disengagementfrom the contact-moving means, and means normally acting to prevent the warper from being started before the contact has been placedin engagement with the\contact-mov- 16. A warper clock having-,in combination, a screw, a graduated bar and a guide rod eX- tending parallel with the screw, a slide pivoted upon and' movable along the guide rod and having a tooth adapted to engage said screw', an indicator ling-er on saidgslide arranged to move along said graduated bar, a stop block mounted on said bar for -adjustment longitudinallythereof, said bar having a longitudinal groove therein, said slide having a projection adapted to slide in said groove and also slidable along the top of the bar after said tooth has been withdrawn from engagement with the screw, said stop block being shaped to allow said projection to pass from the top of the bar to said groove, an electric contact bar also extending along the screw, and a spring contact on said slide arranged to engage sai-d contact bar while said projection is being moved along the top of the bar, said slide being arranged to drop into vengagement with said Contact bar when said l' and hav-ing a' tooth adapted toen'gage said gravity holding said tooth against the screw, screw, an indicator finger on said slide-.ar-y ranged to move ialon "said graduated bar, va'

l stop block orsaid' ngermounted'on said' bar' for adjustment longitudinally thereof,

f a screw, a baranda guide rod extending par-l allel with the screw', an indicator pivoted upon andsli-dable along the guide rod andmovable along the screw-bythe rotation ofithelatter, said indicator having a part adapted to slide alongsaidbar'andbe hel-dy by'saidbar so as to prevent pivotalmovement of said' indicator which' would@ di-'sengage'the indicator from the screw.,' and also sli-dable' along the top of the bar after the indicator has reached the end ofthe screw and has been `pivotally moved toplace said part on top of'the bar, and at stop -bloclrl .mounted onvsaid bar vfor-adjustbeingshaped to allow said partto passfroin i the top of the ba-r into engagement with said' di'catori 19." A warper clock having, in combination, a screw'a'bar and a'g'uide rod extending parallel with the'screw, and an indicator pivoted upon andA slidable along thev guide A rod and.

bartoprevent pivotal movement of the in? movable'along the'screwby the rotation o f the latter., 'said graduatedbar having a longitudinal groove therein, vsaid indicator having a part adapted to s lidein'=said groove and held by the walls of said groove so as to 'prevent' ,pivotal movement of ,said indicator which 40 -would disengagethe indicator -rom the screw.;

1ascrew, a bar anda guide rod exten-ding par? Aallelwitlithe screw, and an indicator pivoted upon and slidable along the guide rod and movable along the screw by the rotation'of the j latter and normally engaged with'said' bar so as to -be held against pivotal movement on said gui-de' rod in the direction to disengage the indicator from the screw. c'

5' 21. A warper clock having, in combination,

screw, andan indicator movable along the screw by the rotation of the latter and normally engaged with said bar so as to -be held Yagainst disengagement from the screw.

"i 22. A warper clockhaving, in combination, a screw,l a Contact bar extending parallel with the screw, aslide-having a tooth adapted to engage said screw, a stop to deter-- mine the starting .positionof the slide, said stop being vmounted for adjustment parallel Awith Vthe screw, said slide .being arranged to engage saidcontact bar .when said tooth#v reaches the end ofthe screw, and a contacton said slide arranged to slide-in Contact with' .saidA contact. bar while theslide is beiii'gret'iirne'dfinto contact'with the stop', A

2 3. 'A 'warper clock havingfinzcombina# tion, a screw, a bar extending. parallel with .the screw, a sli'de'movable along the's `:r ewy and having 'a tooth adaptedto engage said screw, said bar 'having -a longitudinal Agroove therein, said slide having a project-ion adapt ed to, slide in said groove and also slidable I along the top of the barafter said toot-h has been withdrawnl from engagement with the screw, an electric contact bar also extending' along the screw, and .a contacten-"said slide 'arranged to engage said contact barwhile said proj ectionv is being vmoved along; the top of the bar, saidA slide being arranged to engage said contact bar. when said tooth reaches the end ofthe screw.

24. A warper' clock having, in lcombination, a screw, an indicatormovable'along the screw by thefrotationof the. latter, said indicator being arranged toclo'sean electric circuit to stop the warper, 'said indicator also being a'rrangedzto keep vsaid circuit closed 25qment: -longiti'i-dinally thereof, saidstop block while the indicator is beingreturned' to start- 25.. 'A warper clock having, in combination, a screw, an indicator movable along the close'an electric circuit j to s topjthefwarperf when the indicator 'reaches 'the 'end 'o the".

screw and also being arranged to `'lreep said circuit closed -while the indicator is being returned to starting p'ositi'on.l

26; A warper'clock. having, in combination, a screw, an indicator movable along the screw `by therotation of the. latter, saidv in- 20. Awarper'clock having, in combination,

warper stopped while the indicator is being returned to its starting position. 27. A warper clock having, in combination, a screw, a graduated bar extending parallel witlilthe screw,.andlan indicator movable alongthe 4 screw by thefrotation of A )the latter and arran dto travel alon .said a screw, a bar extending parallel withthey ge g' bar, said bar having a longitudinal'groove iis therein, said indicator having'a part adapted to slide in said groove and also slidable along the top of thel bar after 'the'indicator 'has been withdrawn from engagement withthe.

screw, and a stop block mounted for ad.

justment longitudinallybof the screw, said stop block.` being shaped to allow saidpart to pass from the top ofthe graduated bar tosaid groove.

screwby the rotation' of the lat'teiga gradu-4 125 ,28. A warper clock'having, incombinaated vbareidj'end'ing parallel-with the screw, l

the'findicator being arranged to travel'along said bar, a stop block mounted on said bar for adjustment longitudinally thereof, said indicator being liftable out of engagement with the screw so that the indicator may be moved back to starting position alongside the stop block, and means normally preventing the indicator from being replaced in engage ment With the screw after the indicator has been lifted out of engagement with the screw and While intermediate the end of the screw and said stop block.

29. A Warper clock having, in combination, a screw, an indicator movable along the Y screw by the rotation of the latter, a. stop '15 mounted for adjustment longitudinally of the screw, said indicator being withdrawable from engagement with the screw sothat the indicator may be vmoved back to starting position alongside the stop, and means normally preventing the indicator from being replaced in engagement with the screw after the indicator has been Withdrawn from engagement with the screw and While intermediate the end of the screw and said stop.

In testimony whereof, I have hereunto affixed my signature. A

BURT A. PETERSON. 

